Your search keyword '"Sieun Lee"' showing total 120 results

101. Strip-based registration of serially acquired optical coherence tomography angiography

Author

Chandrakumar Balaratnasingam, Sieun Lee, Zaid Mammo, Myeong Jin Ju, Eduardo V. Navajas, Mirza Faisal Beg, Yifan Jian, Andrew Merkur, Marinko V. Sarunic, and Morgan Heisler

Subjects

Computer science, Image quality, Biomedical Engineering, Image registration, Image processing, 01 natural sciences, Retina, 010309 optics, Biomaterials, 03 medical and health sciences, Speckle pattern, chemistry.chemical_compound, 0302 clinical medicine, Optics, Optical coherence tomography, 0103 physical sciences, medicine, Humans, Fluorescein Angiography, medicine.diagnostic_test, business.industry, Reproducibility of Results, Retinal, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Visualization, Capillaries, chemistry, Angiography, 030221 ophthalmology & optometry, business, Tomography, Optical Coherence, Biomedical engineering

Abstract

The visibility of retinal microvasculature in optical coherence tomography angiography (OCT-A) images is negatively affected by the small dimension of the capillaries, pulsatile blood flow, and motion artifacts. Serial acquisition and time-averaging of multiple OCT-A images can enhance the definition of the capillaries and result in repeatable and consistent visualization. We demonstrate an automated method for registration and averaging of serially acquired OCT-A images. Ten OCT-A volumes from six normal control subjects were acquired using our prototype 1060-nm swept source OCT system. The volumes were divided into microsaccade-free en face angiogram strips, which were affine registered using scale-invariant feature transform keypoints, followed by nonrigid registration by pixel-wise local neighborhood matching. The resulting averaged images were presented of all the retinal layers combined, as well as in the superficial and deep plexus layers separately. The contrast-to-noise ratio and signal-to-noise ratio of the angiograms with all retinal layers (reported as average ± standard deviation ) increased from 0.52 ± 0.22 and 19.58 ± 4.04 ?? dB for a single image to 0.77 ± 0.25 and 25.05 ± 4.73 ?? dB , respectively, for the serially acquired images after registration and averaging. The improved visualization of the capillaries can enable robust quantification and study of minute changes in retinal microvasculature.

Published

2016

102. Quantifying Variability in Longitudinal Peripapillary RNFL and Choroidal Layer Thickness Using Surface Based Registration of OCT Images

Author

Sieun Lee, Morgan Heisler, Marinko V. Sarunic, Paul J. Mackenzie, and Mirza Faisal Beg

Subjects

Materials science, Intraclass correlation, Biomedical Engineering, Nerve fiber layer, retinal layer thickness measurement, 01 natural sciences, 010309 optics, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Optics, Optical coherence tomography, registration, 0103 physical sciences, medicine, Coherence (signal processing), measurement variability, medicine.diagnostic_test, business.industry, Retinal, Articles, Layer thickness, eye diseases, Ophthalmology, Tilt (optics), medicine.anatomical_structure, chemistry, OCT, RNFL, 030221 ophthalmology & optometry, Choroid, sense organs, business, choroid, Biomedical engineering

Abstract

PURPOSE To assess within-subject variability of retinal nerve fiber layer (RNFL) and choroidal layer thickness in longitudinal repeat optical coherence tomography (OCT) images with point-to-point measurement comparison made using nonrigid surface registration. METHODS Nine repeat peripapillary OCT images were acquired over 3 weeks from 12 eyes of 6 young, healthy subjects using a 1060-nm prototype swept-source device. The RNFL, choroid and the Bruch's membrane opening (BMO) were segmented, and point-wise layer thicknesses and BMO dimensions were measured. For each eye, the layer surfaces of eight follow-up images were registered to those of the baseline image, first by rigid alignment using blood vessel projections and axial height and tilt correction, followed by nonrigid registration of currents-based diffeomorphisms algorithms. This mapped all follow-up measurements point-wise to the common baseline coordinate system, allowing for point-wise statistical analysis. Measurement variability was evaluated point-wise for layer thicknesses and BMO dimensions by time-standard deviation (tSD). RESULTS The intraclass correlation coefficients (ICCs) of BMO area and eccentricity were 0.993 and 0.972, respectively. Time-mean and tSD were computed point-wise for RNFL and choroidal thickness and color-mapped on the baseline surfaces. tSD was less than two coherence lengths of the system 2l = 12 μm at most vertices. High RNFL thickness variability corresponded to the locations of retinal vessels, and choroidal thickness varied more than RNFL thickness. CONCLUSIONS Our registration-based end-to-end pipeline produced point-wise correspondence among time-series retinal and choroidal surfaces with high measurement repeatability (low variability). Blood vessels were found to be the main sources contributing to the normal variability of the RNFL thickness measure. The computational pipeline with a measurement of normal variability can be used in future longitudinal studies to identify changes that are above the threshold of normal point-wise variability and track localized changes in retinal layers in high spatial resolution. TRANSLATIONAL RELEVANCE Using the registration-based approach presented in this study, longitudinal changes in retinal and choroidal layers can be detected with higher sensitivity and spatial precision.

Published

2016

103. Predictors of Depression Among Community-Dwelling Older Women Living Alone in Korea

Author

Gwi-Ryung Son Hong and SiEun Lee

Subjects

Gerontology, Activities of daily living, Health Status, 03 medical and health sciences, 0302 clinical medicine, Residence Characteristics, Surveys and Questionnaires, Exercise performance, Activities of Daily Living, Republic of Korea, Prevalence, Medicine, Brief Psychiatric Rating Scale, Humans, 030212 general & internal medicine, Muscle Strength, Depression (differential diagnoses), Aged, Aged, 80 and over, business.industry, Depression, Cross-Sectional Studies, Cohort, Muscle strength, Female, Independent Living, Pshychiatric Mental Health, business, 030217 neurology & neurosurgery

Abstract

This study examined the prevalence and predicting factors of depression among community-dwelling older women living alone in Korea. Of the 2054 older women living alone in this study, 42.9% (881) were experiencing depression. Factors associated with a higher prevalence of depression were overall difficulty with living alone, taking more than six medications, limitations of instrumental activities of daily living, limitations of muscle strength, limitations of exercise performance in upper extremities, trouble with hearing, and perceptions of poor health status. These results provide a basis for designing preventive interventional programs to decrease depression among older women living alone in Korea.

Published

2016

104. Enhancing the visualization of human retina vascular networks by Graphics Processing Unit accelerated speckle variance OCT and graph cut retinal layer segmentation

Author

Michelle Cua, Yifan Jian, Sieun Lee, Kevin Wong, Marinko V. Sarunic, Morgan Heisler, Vincent Wong, and Jing Xu

Subjects

Retina, genetic structures, business.industry, Computer science, Graphics processing unit, Retinal, Image segmentation, eye diseases, Visualization, chemistry.chemical_compound, Speckle pattern, medicine.anatomical_structure, chemistry, Cut, medicine, Segmentation, Computer vision, Artificial intelligence, Retinal angiography, business

Abstract

We present a Graph Cut based image segmentation that was implemented on a Graphics Processing Unit for acceleration of processing retinal images acquired with OCT. We applied this work to generate a retinal thickness map, and for retinal layer segmentation to enhance the visualization of vasculature networks from distinct retinal capillary beds during acquisition using speckle variance OCT.

Published

2015

105. Automatic optimization high-speed high-resolution OCT retinal imaging at 1μm

Author

Sujin Lee, Paul J. Mackenzie, Sieun Lee, Michelle Cua, Dongkai Miao, Stefano Bonora, Yifan Jian, Robert J. Zawadzki, Xiyun Liu, and Marinko V. Sarunic

Subjects

genetic structures, medicine.diagnostic_test, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Nerve fiber layer, Retinal, Lateral resolution, Image segmentation, eye diseases, Focus stacking, Visualization, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Optical coherence tomography, medicine, Computer vision, Segmentation, sense organs, Artificial intelligence, business, Retinal scan

Abstract

High-resolution OCT retinal imaging is important in providing visualization of various retinal structures to aid researchers in better understanding the pathogenesis of vision-robbing diseases. However, conventional optical coherence tomography (OCT) systems have a trade-off between lateral resolution and depth-of-focus. In this report, we present the development of a focus-stacking optical coherence tomography (OCT) system with automatic optimization for high-resolution, extended-focal-range clinical retinal imaging. A variable-focus liquid lens was added to correct for de-focus in real-time. A GPU-accelerated segmentation and optimization was used to provide real-time layer-specific enface visualization as well as depth-specific focus adjustment. After optimization, multiple volumes focused at different depths were acquired, registered, and stitched together to yield a single, high-resolution focus-stacked dataset. Using this system, we show high-resolution images of the ONH, from which we extracted clinically-relevant parameters such as the nerve fiber layer thickness and lamina cribrosa microarchitecture.

Published

2015

106. Image quality assessment of silentT2PROPELLER sequence for brain imaging in infants

Author

Sieun Lee, Soo Han Yoon, Hyun Gi Kim, and Jin Wook Choi

Subjects

medicine.diagnostic_test, business.industry, Image quality, media_common.quotation_subject, Propeller, Magnetic resonance imaging, General Medicine, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Noise, 0302 clinical medicine, Signal-to-noise ratio, Neuroimaging, medicine, Contrast (vision), Radiology, Nuclear Medicine and imaging, Nuclear medicine, business, Sound pressure, 030217 neurology & neurosurgery, media_common

Abstract

Objective:Infants are vulnerable to high acoustic noise. Acoustic noise generated by MR scanning can be reduced by a silent sequence. The purpose of this study is to compare the image quality of the conventional and silent T2 PROPELLER sequences for brain imaging in infants.Methods:A total of 36 scans were acquired from 24 infants using a 3 T MR scanner. Each patient underwent both conventional and silent T2 PROPELLER sequences. Acoustic noise level was measured. Quantitative and qualitative assessments were performed with the images taken with each sequence.Results:The sound pressure level of the conventional T2 PROPELLER imaging sequence was 92.1 dB and that of the silent T2 PROPELLER imaging sequence was 73.3 dB (reduction of 20%). On quantitative assessment, the two sequences (conventional vs silent T2 PROPELLER) did not show significant difference in relative contrast (0.069 vs 0.068, p value = 0.536) and signal-to-noise ratio (75.4 vs 114.8, p value = 0.098). Qualitative assessment of overall image ...

Published

2017

107. Optic nerve head and peripapillary morphometrics in myopic glaucoma

Author

Sieun Lee, Sherry X. Han, Mirza Faisal Beg, Marinko V. Sarunic, Paul J. Mackenzie, and Mei Young

Subjects

Adult, Retinal Ganglion Cells, medicine.medical_specialty, Intraocular pressure, Materials science, genetic structures, Optic Disk, Optic disk, Nerve fiber layer, Glaucoma, Refraction, Ocular, Severity of Illness Index, chemistry.chemical_compound, Imaging, Three-Dimensional, Ophthalmology, medicine, Myopia, Humans, Intraocular Pressure, Retinal, Inner limiting membrane, Middle Aged, medicine.disease, eye diseases, medicine.anatomical_structure, chemistry, Optic nerve, sense organs, Choroid, Tomography, Optical Coherence

Abstract

PURPOSE: To investigate morphological characteristics of optic nerve head and peripapillary region with myopia and glaucoma. METHODS: Ten normal and 17 glaucomatous myopic participants were imaged with a custom 1060-nm swept-source optical coherence tomography system. The three-dimensional images were processed and segmented for inner limiting membrane (ILM), posterior border of retinal nerve fiber layer (RNFL), Bruch's membrane (BM), and posterior border of choroid. Seven shape parameters were measured: nerve fiber layer (NFL) thickness; Bruch's membrane opening (BMO) area, eccentricity, and planarity; BMO and BM depths; and choroidal thickness. The results were analyzed by group and regional sector, and multiple regression was performed on each shape parameter with age, axial length, and glaucoma severity, measured by mean deviation (MD). RESULTS: Bruch's membrane opening area (P < 0.001), eccentricity (P = 0.025), and planarity (P = 0.019) were correlated with axial length but not with MD, such that larger, more elliptical, and less planar BMO was associated with longer axial length. Several BMOs displayed a saddle-like shape configuration whose orientation appeared to be aligned with that of the BMO ellipse. All BM showed posterior deformation toward BMO such that BM closer to BMO was more posterior than that farther from BMO. Bruch's membrane depth was correlated with axial length (P = 0.014) and MD (P = 0.040) in intersubject regression, and BMO depth (P = 0.003) and BM depth (P = 0.006) were correlated with MD in intereye regression. Bruch's membrane depth was also associated with age. Choroidal thickness was negatively correlated with age (P = 0.001) and with axial length to a smaller degree (P = 0.034), but not with glaucoma severity. CONCLUSIONS: Axial length was a significant factor in BMO and BM shape in normal and glaucomatous myopic subjects. Posterior deformation of BM was observed in all eyes and significantly associated with functional glaucomatous damage and age.

Published

2014

108. Automatic detection of subretinal fluid and sub-retinal pigment epithelium fluid in optical coherence tomography images

Author

Farzin Forooghian, Andrew Merkur, David A. Albiani, Marinko V. Sarunic, Weiguang Ding, Sieun Lee, Mei Young, Andrew W. Kirker, Serge Bourgault, and Mirza Faisal Beg

Subjects

genetic structures, Computer science, Image processing, Retinal Pigment Epithelium, Signal-To-Noise Ratio, Retina, Pattern Recognition, Automated, Macular Degeneration, Optical coherence tomography, Image Processing, Computer-Assisted, medicine, Humans, False Positive Reactions, Segmentation, Computer vision, Optical tomography, Observer Variation, Retinal pigment epithelium, medicine.diagnostic_test, Blindness, business.industry, Subretinal Fluid, Reproducibility of Results, Image segmentation, Macular degeneration, medicine.disease, eye diseases, Body Fluids, medicine.anatomical_structure, sense organs, Tomography, Artificial intelligence, business, Algorithms, Tomography, Optical Coherence

Abstract

Age-related macular degeneration (AMD) is the leading cause of blindness in developed countries. Subretinal fluid (SRF) and sub-retinal pigment epithelium (sub-RPE) fluid are signs of AMD and can be detected in optical coherence tomography images. However, manual detection and segmentation of SRFs and sub-RPE fluids are laborious and time consuming. In this paper, a novel pipeline is proposed for automatic detection of SRFs and sub-RPE fluids. First, top and bottom layers of retina are segmented using a graph cut method. Then, a Split Bregman-based segmentation method is used to segment dark regions between layers. These segmented regions are considered as potential fluid candidates, on which a set of features are generated. After that, a random forest classifier is trained to distinguish between the true fluid regions from the falsely detected fluid regions. This method shows reasonable performance in a leave-one-out evaluation using a dataset from 21 patients.

Published

2013

109. Segmentation of the macular choroid in OCT images acquired at 830nm and 1060nm

Author

Sieun Lee, Mirza Faisal Beg, and Marinko V. Sarunic

Subjects

Retina, genetic structures, medicine.diagnostic_test, Computer science, business.industry, Image quality, Macular degeneration, medicine.disease, eye diseases, Sclera, Optics, medicine.anatomical_structure, Optical coherence tomography, medicine, Segmentation, sense organs, Choroid, business, Retinal scan, Biomedical engineering

Abstract

Retinal imaging with optical coherence tomography (OCT) has rapidly advanced in ophthalmic applications with the broad availability of Fourier domain (FD) technology in commercial systems. The high sensitivity afforded by FD-OCT has enabled imaging of the choroid, a layer of blood vessels serving the outer retina. Improved visualization of the choroid and the choroid-sclera boundary has been investigated using techniques such as enhanced depth imaging (EDI), and also with OCT systems operating in the 1060-nm wavelength range. We report on a comparison of imaging the macular choroid with commercial and prototype OCT systems, and present automated 3D segmentation of the choroid-scleral layer using a graph cut algorithm. The thickness of the choroid is an important measurement to investigate for possible correlation with severity, or possibly early diagnosis, of diseases such as age-related macular degeneration.

Published

2013

110. Normal Variation of Photoreceptor Outer Segment Volume With Age, Gender, Refractive Error, and Vitreomacular Adhesion.

Author

Pakdel, Amir Reza, Mammo, Zaid, Sieun Lee, Forooghian, Farzin, and Lee, Sieun

Published

2018

111. Segmentation of the foveal microvasculature using deep learning networks

Author

Sieun Lee, Zaid Mammo, Pavle Prentasic, Marinko V. Sarunic, Morgan Heisler, Mirza Faisal Beg, Andrew Merkur, Sven Lončarić, and Eduardo V. Navajas

Subjects

Fovea Centralis, genetic structures, Computer science, Biomedical Engineering, Scale-space segmentation, 01 natural sciences, Convolutional neural network, Machine Learning, 010309 optics, Biomaterials, 03 medical and health sciences, 0302 clinical medicine, Optics, Foveal, 0103 physical sciences, Humans, Segmentation, image segmentation, neural networks, optical coherence tomography angiography, ophthalmology, Pixel, Artificial neural network, business.industry, Deep learning, Pattern recognition, Image segmentation, eye diseases, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Microvessels, 030221 ophthalmology & optometry, sense organs, Artificial intelligence, business, Algorithms, Tomography, Optical Coherence

Abstract

Accurate segmentation of the retinal microvasculature is a critical step in the quantitative analysis of the retinal circulation, which can be an important marker in evaluating the severity of retinal diseases. As manual segmentation remains the gold standard for segmentation of optical coherence tomography angiography (OCT-A) images, we present a method for automating the segmentation of OCT-A images using deep neural networks (DNNs). Eighty OCT-A images of the foveal region in 12 eyes from 6 healthy volunteers were acquired using a prototype OCT-A system and subsequently manually segmented. The automated segmentation of the blood vessels in the OCT-A images was then performed by classifying each pixel into vessel or nonvessel class using deep convolutional neural networks. When the automated results were compared against the manual segmentation results, a maximum mean accuracy of 0.83 was obtained. When the automated results were compared with inter and intrarater accuracies, the automated results were shown to be comparable to the human raters suggesting that segmentation using DNNs is comparable to a second manual rater. As manually segmenting the retinal microvasculature is a tedious task, having a reliable automated output such as automated segmentation by DNNs, is an important step in creating an automated output.

Published

2016

112. Morphometry of the myopic optic nerve head using FDOCT

Author

Mirza Faisal Beg, Paul J. Mackenzie, Evgeniy Lebed, Sieun Lee, Mei Young, and Marinko V. Sarunic

Subjects

Lamina, Materials science, genetic structures, medicine.diagnostic_test, business.industry, Tissue thickness, Optic cup (anatomical), eye diseases, Optics, Morphometric analysis, Optical coherence tomography, Optic nerve, medicine, Head (vessel), sense organs, business, Fourier domain, Biomedical engineering

Abstract

In this paper we present imaging and morphometric analysis of a myopic Optic Nerve Head (ONH) using an 830nm wavelength Fourier domain optical coherence tomography system. The thinner prelaminar neural tissue and shallower optic cup in the myopic subject allows visualization of the tissue structures such as anterior laminar surface and lamina cribrosa that are often challenging to image due to their depth. From these structures we measured volumetric anatomical parameters and topographical tissue thickness correlated with glaucomatous structural damage in the ONH.

Published

2011

113. Longitudinal study of retinal degeneration in a rat using spectral domain optical coherence tomography

Author

Marinko V. Sarunic, Jing Xu, H. Uri Saragovi, Sieun Lee, Yujing Bai, Mirza Faisal Beg, Azadeh Yazdanpanah, and Eli Gibson

Subjects

Retinal degeneration, genetic structures, Fundus Oculi, Image processing, Degeneration (medical), Retina, chemistry.chemical_compound, Optics, Optical coherence tomography, medicine, Image Processing, Computer-Assisted, Animals, Humans, medicine.diagnostic_test, business.industry, Retinal Degeneration, Retinal, Axotomy, medicine.disease, eye diseases, Atomic and Molecular Physics, and Optics, Rats, medicine.anatomical_structure, chemistry, Optic nerve, sense organs, Tomography, business, Algorithms, Tomography, Optical Coherence

Abstract

Rodent models of retinal degenerative diseases are used by vision scientists to develop therapies and to understand mechanisms of disease progression. Measurement of changes to the thickness of the various retinal layers provides an objective metric to evaluate the performance of the therapy. Because invasive histology is terminal and provides only a single data point, non-invasive imaging modalities are required to better study progression, and to reduce the number of animals used in research. Optical Coherence Tomography (OCT) has emerged as a dominant imaging modality for human ophthalmic imaging, but has only recently gained significant attention for rodent retinal imaging. OCT provides cross section images of retina with micron-scale resolution which permits measurement of the retinal layer thickness. However, in order to be useful to vision scientists, a significant fraction of the retinal surface needs to be measured. In addition, because the retinal thickness normally varies as a function of distance from optic nerve head, it is critical to sample all regions of the retina in a systematic fashion. We present a longitudinal study of OCT to measure retinal degeneration in rats which have undergone optic nerve axotomy, a well characterized form of rapid retinal degeneration. Volumetric images of the retina acquired with OCT in a time course study were segmented in 2D using a semi-automatic segmentation algorithm. Then, using a 3D algorithm, thickness measurements were quantified across the surface of the retina for all volume segmentations. The resulting maps of the changes to retinal thickness over time represent the progression of degeneration across the surface of the retina during injury. The computational tools complement OCT retinal volumetric acquisition, resulting in a powerful tool for vision scientists working with rodents.

Published

2010

114. Nucleus-Selective Expression of Laccase Genes in the Dikaryotic Strain of Lentinula edodes.

Author

Byeongsuk Ha, Sieun Lee, Sinil Kim, Minseek Kim, Yoon Jung Moon, Yelin Song, and Hyeon-Su Ro

Subjects

*SHIITAKE, *LACCASE genetics, *LENTINUS, *OXIDOREDUCTASE genetics, *CYTOPLASM, *LACCASE

Abstract

In mating of Lentinula edodes, dikaryotic strains generated from certain monokaryotic strains such as the B2 used in this study tend to show better quality of fruiting bodies regardless of the mated monokaryotic strains. Unlike B2, dikaryotic strains generated from B16 generally show low yields, with deformed or underdeveloped fruiting bodies. This indicates that the two nuclei in the cytoplasm do not contribute equally to the physiology of dikaryotic L. edodes, suggesting an expression bias in the allelic genes of the two nuclei. To understand the role of each nucleus in dikaryotic strains, we investigated single nucleotide polymorphisms (SNPs) in laccase genes of monokaryotic strains to reveal nuclear origin of the expressed mRNAs in dikaryotic strain. We performed reverse transcription PCR (RT-PCR) analysis using total RNAs extracted from dikaryotic strains (A5B2, A18B2, and A2B16) as well as from compatible monokaryotic strains (A5, A18, and B2 for A5B2 and A18B2; A2 and B16 for A2B16). RT-PCR results revealed that Lcc1, Lcc2, Lcc4, Lcc7, and Lcc10 were the mainly expressed laccase genes in the L. edodes genome. To determine the nuclear origin of these laccase genes, the genomic DNA sequences in monokaryotic strains were analyzed, thereby revealing five SNPs in Lcc4 and two in Lcc7. Subsequent sequence analysis of laccase mRNAs expressed in dikaryotic strains revealed that these were almost exclusively expressed from B2-originated nuclei in A5B2 and A18B2 whereas B16 nucleus did not contribute to laccase expression in A2B16 strain. This suggests that B2 nucleus dominates the expression of allelic genes, thereby governing the physiology of dikaryons. [ABSTRACT FROM AUTHOR]

Published

2017

115. Anterior Segment Optical Coherence Tomography for Targeted Transconjunctival Suture Placement in Overfiltering Trabeculectomy Blebs.

Author

Heisler, Morgan, Quong, Whitney L., Sieun Lee, Sherry Han, Beg, Mirza F., Sarunic, Marinko V., and Mackenzie, Paul J.

Published

2017

116. Strip-based registration of serially acquired optical coherence tomography angiography.

Author

Heisler, Morgan, Sieun Lee, Mammo, Zaid, Yifan Jian, MyeongJin Ju, Merkur, Andrew, Navajas, Eduardo, Balaratnasingam, Chandrakumar, Beg, Mirza Faisal, and Sarunic, Marinko V.

Subjects

*OPTICAL coherence tomography, *ANGIOGRAPHY, *BLOOD flow, *CAPILLARIES, *SIGNAL-to-noise ratio

Abstract

The visibility of retinal microvasculature in optical coherence tomography angiography (OCT-A) images is negatively affected by the small dimension of the capillaries, pulsatile blood flow, and motion artifacts. Serial acquisition and time-averaging of multiple OCT-A images can enhance the definition of the capillaries and result in repeatable and consistent visualization. We demonstrate an automated method for registration and averaging of serially acquired OCT-A images. Ten OCT-A volumes from six normal control subjects were acquired using our prototype 1060-nm swept source OCT system. The volumes were divided into micro-saccade-free en face angiogram strips, which were affine registered using scale-invariant feature transform keypoints, followed by nonrigid registration by pixel-wise local neighborhood matching. The resulting averaged images were presented of all the retinal layers combined, as well as in the superficial and deep plexus layers separately. The contrast-to-noise ratio and signal-to-noise ratio of the angiograms with all retinal layers (reported as average ± standard deviation) increased from 0.52 ± 0.22 and 19.58 ± 4.04 dB for a single image to 0.77 ± 0.25 and 25.05 ± 4.73 dB, respectively, for the serially acquired images after registration and averaging. The improved visualization of the capillaries can enable robust quantification and study of minute changes in retinal microvasculature. [ABSTRACT FROM AUTHOR]

Published

2017

117. Predictors of Depression Among Community-Dwelling Older Women Living Alone in Korea.

Author

SiEun Lee and Gwi-Ryung Son Hong

Abstract

This study examined the prevalence and predicting factors of depression among community-dwelling older women living alone in Korea. Of the 2054 older women living alone in this study, 42.9% (881) were experiencing depression. Factors associated with a higher prevalence of depression were overall difficulty with living alone, taking more than six medications, limitations of instrumental activities of daily living, limitations of muscle strength, limitations of exercise performance in upper extremities, trouble with hearing, and perceptions of poor health status. These results provide a basis for designing preventive interventional programs to decrease depression among older women living alone in Korea. [ABSTRACT FROM AUTHOR]

Published

2016

118. Segmentation of the foveal microvasculature using deep learning networks.

Author

Prentašić, Pavle, Heisler, Morgan, Mammo, Zaid, Sieun Lee, Merkur, Andrew, Navajas, Eduardo, Beg, Mirza Faisal, Šarunić, Marinko, and Lončarić, Sven

Subjects

RETINAL blood vessels, OPTICAL coherence tomography, IMAGE segmentation, BIOLOGICAL neural networks, OPHTHALMOLOGY, FLUORESCENCE angiography, SIGNAL convolution

Abstract

Accurate segmentation of the retinal microvasculature is a critical step in the quantitative analysis of the retinal circulation, which can be an important marker in evaluating the severity of retinal diseases. As manual segmentation remains the gold standard for segmentation of optical coherence tomography angiography (OCTA) images, we present a method for automating the segmentation of OCT-A images using deep neural networks (DNNs). Eighty OCT-A images of the foveal region in 12 eyes from 6 healthy volunteers were acquired using a prototype OCT-A system and subsequently manually segmented. The automated segmentation of the blood vessels in the OCT-A images was then performed by classifying each pixel into vessel or nonvessel class using deep convolutional neural networks. When the automated results were compared against the manual segmentation results, a maximum mean accuracy of 0.83 was obtained. When the automated results were compared with inter and intrarater accuracies, the automated results were shown to be comparable to the human raters suggesting that segmentation using DNNs is comparable to a second manual rater. As manually segmenting the retinal microvasculature is a tedious task, having a reliable automated output such as automated segmentation by DNNs, is an important step in creating an automated output. [ABSTRACT FROM AUTHOR]

Published

2016

119. Retinal angiography with real-time speckle variance optical coherence tomography.

Author

Jing Xu, Sherry Han, Balaratnasingam, Chandrakumar, Mammo, Zaid, Wong, Kevin S. K., Sieun Lee, Cua, Michelle, Mei Young, Kirker, Andrew, Albiani, David, Forooghian, Farzin, Mackenzie, Paul, Merkur, Andrew, Dao-Yi Yu, and Sarunic, Marinko V.

Subjects

RETINAL angiography, OPTICAL coherence tomography, INTERFEROMETRY, OPHTHALMOLOGY, EYE diseases

Abstract

This report describes a novel, non-invasive and label-free optical imaging technique, speckle variance optical coherence tomography (svOCT), for visualising blood flow within human retinal capillary networks. This imaging system uses a custom-built swept source OCT system operating at a line rate of 100 kHz. Real-time processing and visualisation is implemented on a consumer grade graphics processing unit. To investigate the quality of microvascular detail acquired with this device we compared images of human capillary networks acquired with svOCT and fluorescein angiography. We found that the density of capillary microvasculature acquired with this svOCT device was visibly greater than fluorescein angiography. We also found that this svOCT device had the capacity to generate en face images of distinct capillary networks that are morphologically comparable with previously published histological studies. Finally, we found that this svOCT device has the ability to noninvasively illustrate the common manifestations of diabetic retinopathy and retinal vascular occlusion. The results of this study suggest that graphics processing unit accelerated svOCT has the potential to non-invasively provide useful quantitative information about human retinal capillary networks. Therefore svOCT may have clinical and research applications for the management of retinal microvascular diseases, which are a major cause of visual morbidity worldwide. [ABSTRACT FROM AUTHOR]

Published

2015

120. Rapid radial optical coherence tomography image acquisition.

Author

Lebed, Evgeniy, Sieun Lee, Sarunic, Marinko V., and Faisal Beg, Mirza

Subjects

*COMPRESSED sensing, *OPTICAL coherence tomography, *CARTESIAN coordinates, *SYMMETRY (Physics), *INTERPOLATION

Abstract

We demonstrate how compressive sampling can be used to expedite volumetric optical coherence tomography (OCT) image acquisition. We propose a novel method to interpolate OCT volumetric images from data acquired by radial B-scans in the Cartesian coordinate system. Due to the inherent polar symmetry in the human eye, the (r, θ, z) coordinate system provides a natural domain to perform the interpolation. We demonstrate that the method has minimal effect on image quality even when up to 88% of the data is not acquired. The potential outcome of this work could lead to significant reductions in OCT volume acquisition time in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2013